Presentation is loading. Please wait.

Presentation is loading. Please wait.

Volume of a Solid by Cross Section Section 5-9. Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its.

Published byArchibald Simon Modified over 9 years ago

Similar presentations

Presentation on theme: "Volume of a Solid by Cross Section Section 5-9. Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its."— Presentation transcript:

1 Volume of a Solid by Cross Section Section 5-9

2 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A square

3 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A rectangle of height 2

4 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A semicircle

5 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A quarter circle

6 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. An equilateral triangle

7 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A triangle with height equal to ¼ the length of the base.

8 Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its base if every cross section by a plane perpendicular to the x-axis has the given shape. A trapezoid with lower base in the xy-plane, upper base equal to ½ the length of the lower base, and height equal to ¼ the length of the lower base.

9

Download ppt "Volume of a Solid by Cross Section Section 5-9. Let be the region bounded by the graphs of x = y 2 and x=9. Find the volume of the solid that has as its."

Similar presentations

Section Volumes by Slicing

Section Volumes by Slicing
7 Applications of Integration

7 Applications of Integration
Disks, Washers, and Cross Sections Review

Disks, Washers, and Cross Sections Review
Section Volumes by Slicing

Section Volumes by Slicing
More on Volumes & Average Function Value. Average On the last test (2), the average of the test was: FYI - there were 35 who scored a 9 or 10, which means.

More on Volumes & Average Function Value. Average On the last test (2), the average of the test was: FYI - there were 35 who scored a 9 or 10, which means.
Applications of Integration Copyright © Cengage Learning. All rights reserved.

Applications of Integration Copyright © Cengage Learning. All rights reserved.
Volumes – The Disk Method Lesson 7.2. Revolving a Function Consider a function f(x) on the interval [a, b] Now consider revolving that segment of curve.

Volumes – The Disk Method Lesson 7.2. Revolving a Function Consider a function f(x) on the interval [a, b] Now consider revolving that segment of curve.
SECTION 7.3 Volume. VOLUMES OF AN OBJECT WITH A KNOWN CROSS-SECTION  Think of the formula for the volume of a prism: V = Bh.  The base is a cross-section.

SECTION 7.3 Volume. VOLUMES OF AN OBJECT WITH A KNOWN CROSS-SECTION  Think of the formula for the volume of a prism: V = Bh.  The base is a cross-section.
Finding Volumes.

Finding Volumes.
5/19/2015 Perkins AP Calculus AB Day 7 Section 7.2.

5/19/2015 Perkins AP Calculus AB Day 7 Section 7.2.
Section Volumes by Slicing

Section Volumes by Slicing
6.2C Volumes by Slicing with Known Cross-Sections.

6.2C Volumes by Slicing with Known Cross-Sections.
V OLUMES OF SOLIDS WITH KNOWN CROSS SECTIONS 4-H.

V OLUMES OF SOLIDS WITH KNOWN CROSS SECTIONS 4-H.
Section 7.2 Solids of Revolution. 1 st Day Solids with Known Cross Sections.

Section 7.2 Solids of Revolution. 1 st Day Solids with Known Cross Sections.
Cross Sections By: Meghan Grubb. What are cross sections? A cross sectional area results from the intersection of a solid with a plane, usually an x-y.

Cross Sections By: Meghan Grubb. What are cross sections? A cross sectional area results from the intersection of a solid with a plane, usually an x-y.
Chapter 7 Quiz Calculators allowed. 1. Find the area between the functions y=x 2 and y=x 3 a) 1/3 b) 1/12 c) 7/12 d) 1/4 2. Find the area between the.

Chapter 7 Quiz Calculators allowed. 1. Find the area between the functions y=x 2 and y=x 3 a) 1/3 b) 1/12 c) 7/12 d) 1/4 2. Find the area between the.
7.3 Day One: Volumes by Slicing. Volumes by slicing can be found by adding up each slice of the solid as the thickness of the slices gets smaller and.

7.3 Day One: Volumes by Slicing. Volumes by slicing can be found by adding up each slice of the solid as the thickness of the slices gets smaller and.
7.3.3 Volume by Cross-sectional Areas A.K.A. - Slicing.

7.3.3 Volume by Cross-sectional Areas A.K.A. - Slicing.
DO NOW!!! (1 st ) 1.A rectangular prism has length 4 cm, width 5 cm, and height 9 cm. a) Find the area of the cross section parallel to the base. b) Find.

DO NOW!!! (1 st ) 1.A rectangular prism has length 4 cm, width 5 cm, and height 9 cm. a) Find the area of the cross section parallel to the base. b) Find.
Volume: The Disc Method

Volume: The Disc Method

Similar presentations

Ads by Google